Neuromuscular Disorders Unit, Department of Neurology, Instituto de Biomedicina de Sevilla, Hospital U. Virgen del Rocío/CSIC/Universidad de Sevilla, Sevilla, Spain.
Centro de Investigación Biomédica en Red Sobre Enfermedades Neurodegenerativas (CIBERNED), Madrid, Spain.
Acta Neuropathol. 2020 Mar;139(3):565-582. doi: 10.1007/s00401-019-02117-6. Epub 2020 Jan 3.
Protein O-glucosyltransferase 1 (POGLUT1) activity is critical for the Notch signaling pathway, being one of the main enzymes responsible for the glycosylation of the extracellular domain of Notch receptors. A biallelic mutation in the POGLUT1 gene has been reported in one family as the cause of an adult-onset limb-girdle muscular dystrophy (LGMD R21; OMIM# 617232). As the result of a collaborative international effort, we have identified the first cohort of 15 patients with LGMD R21, from nine unrelated families coming from different countries, providing a reliable phenotype-genotype and mechanistic insight. Patients carrying novel mutations in POGLUT1 all displayed a clinical picture of limb-girdle muscle weakness. However, the age at onset was broadened from adult to congenital and infantile onset. Moreover, we now report that the unique muscle imaging pattern of "inside-to-outside" fatty degeneration observed in the original cases is indeed a defining feature of POGLUT1 muscular dystrophy. Experiments on muscle biopsies from patients revealed a remarkable and consistent decrease in the level of the NOTCH1 intracellular domain, reduction of the pool of satellite cells (SC), and evidence of α-dystroglycan hypoglycosylation. In vitro biochemical and cell-based assays suggested a pathogenic role of the novel POGLUT1 mutations, leading to reduced enzymatic activity and/or protein stability. The association between the POGLUT1 variants and the muscular phenotype was established by in vivo experiments analyzing the indirect flight muscle development in transgenic Drosophila, showing that the human POGLUT1 mutations reduced its myogenic activity. In line with the well-known role of the Notch pathway in the homeostasis of SC and muscle regeneration, SC-derived myoblasts from patients' muscle samples showed decreased proliferation and facilitated differentiation. Together, these observations suggest that alterations in SC biology caused by reduced Notch1 signaling result in muscular dystrophy in LGMD R21 patients, likely with additional contribution from α-dystroglycan hypoglycosylation. This study settles the muscular clinical phenotype linked to POGLUT1 mutations and establishes the pathogenic mechanism underlying this muscle disorder. The description of a specific imaging pattern of fatty degeneration and muscle pathology with a decrease of α-dystroglycan glycosylation provides excellent tools which will help diagnose and follow up LGMD R21 patients.
蛋白 O-糖基转移酶 1(POGLUT1)活性对 Notch 信号通路至关重要,是负责 Notch 受体细胞外结构域糖基化的主要酶之一。一个双等位基因突变已在一个家族中被报道为成人起病的肢带型肌营养不良症(LGMD R21;OMIM#617232)的原因。作为国际合作的结果,我们已经确定了第一批 15 名来自 9 个不同国家的无关联家族的 LGMD R21 患者,提供了可靠的表型-基因型和机制见解。携带 POGLUT1 新突变的患者均表现出肢带型肌无力的临床表现。然而,发病年龄从成人扩展到先天性和婴儿期发病。此外,我们现在报告说,在原始病例中观察到的“从内到外”脂肪变性的独特肌肉成像模式实际上是 POGLUT1 肌营养不良症的一个定义特征。对患者肌肉活检的实验显示,NOTCH1 细胞内结构域的水平显著且一致降低,卫星细胞(SC)池减少,并且存在α- dystroglycan 低聚糖基化的证据。体外生化和基于细胞的测定表明,新型 POGLUT1 突变具有致病性作用,导致酶活性和/或蛋白稳定性降低。通过分析转基因果蝇的间接飞行肌发育的体内实验,证明了人类 POGLUT1 突变降低了其成肌活性,从而确定了 POGLUT1 变异与肌肉表型之间的关联。与 Notch 通路在 SC 稳态和肌肉再生中的已知作用一致,患者肌肉样本中的 SC 衍生成肌细胞显示增殖减少和分化促进。综上所述,这些观察结果表明, Notch1 信号降低导致的 SC 生物学改变导致 LGMD R21 患者的肌营养不良症,可能与α- dystroglycan 低聚糖基化的额外贡献有关。本研究确定了与 POGLUT1 突变相关的肌肉临床表型,并确立了该肌肉疾病的致病机制。描述了一种特定的脂肪变性和肌肉病理学成像模式,以及α- dystroglycan 糖基化减少,为诊断和随访 LGMD R21 患者提供了极好的工具。
